PVT1 dependence in cancer with MYC copy-number increase

Authors
Tseng YY1, Moriarity BS2, Gong W3, Akiyama R4, Tiwari A5, Kawakami H4, Ronning P1, Reuland B1, Guenther K1, Beadnell TC6, Essig J1, Otto GM7, O'Sullivan MG7, Largaespada DA8, Schwertfeger KL9, Marahrens Y10, Kawakami Y11, Bagchi A8.
08-27-2014
12:00pm
PST
Categories
RNA & Disease
Speaker
Roman Camarda
Abstract
‘Gain’ of supernumerary copies of the 8q24.21 chromosomal region has been shown to be common in many human cancers1–13 and is associated with poor prognosis7,10,14. The well-characterized myelocytomatosis (MYC) oncogene resides in the 8q24.21 region and is consistently co-gained with an adjacent ‘gene desert’ of approximately 2 megabases that contains the long non-coding RNA gene PVT1, the CCDC26 gene candidate and the GSDMC gene. Whether low copynumber gain of one or more of these genes drives neoplasia is not known. Here we use chromosome engineering in mice to show that a single extra copy of either the Myc gene or the region encompassing Pvt1, Ccdc26 and Gsdmc fails to advance cancer measurably, whereas a single supernumerary segment encompassing all four genes successfully promotes cancer. Gain of PVT1 long non-coding RNA expressionwas required for highMYC proteinlevelsin 8q24-amplified human cancer cells. PVT1 RNA and MYC protein expression correlated in primary human tumours, and copy number of PVT1 was co-increased in more than 98% of MYC-copy-increase cancers. Ablation of PVT1 from MYC-driven colon cancer line HCT116 diminished its tumorigenic potency. As MYC protein has been refractory to small-molecule inhibition, the dependence of high MYC protein levels on PVT1 long non-coding RNA provides a much needed therapeutic target.